Classifications

• • G—PHYSICS
  • G01—MEASURING; TESTING
  • G01B—MEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS; MEASURING ANGLES; MEASURING AREAS; MEASURING IRREGULARITIES OF SURFACES OR CONTOURS
  • G01B11/00—Measuring arrangements characterised by the use of optical techniques
  • G01B11/002—Measuring arrangements characterised by the use of optical techniques for measuring two or more coordinates

Definitions

• the present invention relates to electronic systems for counting bundled lumber, the count of which is specifically referred to as an "end tally".
• Lumber is most often transferred from primary manufacturer, to secondary manufacturer, to wholesaler and finally to retailer in bundled units. These units typically consists of lumber which is at least the same species, grade and thickness. When leaving the primary manufacturer, i.e. a sawmill, the units are of both random width and length.
• the secondary manufacturer e.g. a kiln and/or surfacing yard, will usually regrade and repack the original units prior to shipping them to the wholesaler. As an added service, they may also sort the lumber into fixed width, two length packs. The wholesaler may then repackage these units into fixed width and fixed or two length packs, if this has not already been done. Hence, each step in this process will usually involve at least the repackaging of the bundled units.
• This repackaging creates a need to have the units counted so that they can be accurately billed.
• the counting process involves determining how many pieces of lumber are in each unit for each combination of widths and lengths. This is relatively easy if all the pieces of lumber in the unit are of one width and length. However, this process may take over ten minutes per unit and is subject to human error if the unit has many widths and lengths.
• This unit count referred to as an "end tally" is very often the sole job of an individual at a lumber yard and as such is a value added service which directly or indirectly adds to the cost of processing.
• Sky Tally Prior art exists which attempts to speed the rate at which units can be counted.
• One of the first such systems is known as the Sky Tally and consists of an "electronic ruler" which is connected to a portable computer.
• This system also includes a headphone which the yard man wears during the counting process.
• the Sky Tally instructs them to "count all eight foot pieces” after which they hold the ruler up to all “eight footers", measuring their widths. Instead of having to write the width on a "tally card” as with a manual system, they simply press the ruler at the appropriate point thus indicating the piece's width.
• This system provides further advantage in that it can hold several "tallies” at a time and can transfer this information onto a companion computer which then prints out "tags" and maintain the yards inventory.
• Fig. 1 is a perspective diagram of a stationary "end tally" system based upon a movable focused beam scanning unit placed at each end of a bundle of lumber.
• the system includes the additional parts of a wand for scanning bar codes, an input keypad, a display screen and a wireless transmission sub-system for communicating with a companion computer system.
• Fig.2 is an enlargement of a portion of Fig. 1 showing some of the key elements of the system.
• Fig.3 is a perspective diagram of the preferred embodiment of a stationary "end tally" system based upon a movable spatial scanning unit This system includes the same additional parts as in Fig. 1.
• Fig.4 is a perspective diagram of the movable focused beam scanning unit depicted in the system of Fig. 1, reconfigured into a unit which could be mounted to the side of a moving vehicle such as a fork lift
• Fig.5 is a perspective diagram of a Automated Tagging Sub-system which could be included into any of the previously shown alternative embodiments.
• Fig.6 is a block diagram for all of the embodiment of Fig. 1 depicting the major components which perform the present invention's stated functions.
• Fig.7 is a block diagram for all of the embodiment of Fig.3 depicting the major components which perform the present invention's stated functions.
• FIG. 1 there is shown a perspective drawing of an embodiment 20 and 21 of the Automated End Tally System at either end of a representative unit of lumber 10.
• the unit 10 consists of one of more levels of boards laid side by side, which are referred to as "courses" such as 10a.
• Stationary device 21 is identical to device 20 except that it does not include the necessary input output devices for communicating to a remote system or a user.
• the device 21 communicates through it's Bi-Directional Communications Link 37 to Bi-Directional Communications Link 36 of device 20.
• an enlarged cropped view which further describes device 20, the focused beam scanning unit 22, is attached to the movable horizontal arm 27 which is attached to stand 25.
• the scanning unit 22 is capable of controlled horizontal movement along the movable horizontal aim 27.
• the arm 27 is capable of controlled vertical movement along the vertical axis of stand 25.
• Scanning unit 22 emits focused incident scanning energy beam 38 and receives the reflection of this beam off the end of the lumber unit 10.
• the scanning energy beam 38 can be controllably directed throughout the entire vertical - horizontal plane encompassed by the interior of the stand 26.
• the scanning unit 22 produces a topological map of the end of unit 10. This surface map information is communicated along line 24 to computer 28.
• Computer 28 is attached to stand 25. Attached to computer 28 is encasement 30, for holding tag printer and tags, input / output panel 32, and bi-directional communications link 36. Further attached to 32, is bar code reader 34. As shown in Fig. 2, the input / output panel comprises keypad 33 and display panel 35.
• FIG.3 there is shown a perspective drawing of an alternative embodiment 40 of the device 20 of the Automated End Tally System in front of a representative unit 10.
• the alternative embodiment 40 is identical to the embodiment 20 except the focused beam scanning unit 22 has been replaced by a spatial scanning unit 42.
• the scanning unit 42 is capable of controlled pivot movement on the horizontal arm 27. Scanning unit 42 receives reflected beams 48, from the end of unit 10, from which it constructs a topological map of the end of unit 10.
• FIG.4 there is shown an alternative embodiment 50 of stand 25.
• the embodiment 50 comprises extendible arm 54 which is attachable to fork lift side 52.
• the focused beam scanning unit 22 is attached to the extendible arm 54.
• the extendible arm 54 is capable of moving the scanning unit 22 in order to obtain a topological map of one of the ends of a unit of lumber placed on fork lift load arm 53.
• the sub-system 60 comprises casement 62 which has attached movable arm 70 and attached Bi-Directional Communication T.inlr 63.
• a grasping and stapling hand 72 is attached to the movable arm 70.
• the hand 72 is capable of movement in the horizontal plane which is parallel to the sur ace which supports the sub-system 60, such that it may go between the tag output section of the encasement 60 and the lumber unit 10 to which it attaches tag 11.
• FIG. 6 there is shown a block diagram of the embodiment 20 of the Automated End Tally System.
• Computer 28 receives information from the Input Devices such as keypad 33 and bar code reader 34.
• the computer 28 transmits information to the Output Devices such as the display screen 35 and a tag printer (not shown).
• the computer 28 both receives and transmits information from and to a remote system and the companion device 21 via the Bi-Directional Communications Link 36.
• the Link 36 is also used to communicate with the Automated Tagging Sub-system 60, shown in Fig.5.
• the computer 28 also transmits controlling signals and receives topological map information from the focused beam scanning unit 22.
• the focused beam transceiver 22a emits a focused beam and receives it's reflection off the end of the unit 10. This reflected information is input to the Topological Processor 22b.
• the Topological Processor 22b uses this information to create a topological map of the end of the lumber unit 10 which is input to the computer 28.
• FIG.7 there is shown a block diagram of the embodiment 40 of the Automated End Tally System. It is identical to the block diagram shown in Fig.6 of the embodiment 20 except that line scanning Video Camera 42a replaces Focused Beam Transceiver 22a.
• the reflected beam information which is shown as 48 in Fig.3, is input by the line scanning Video Camera 42a after which it is input to the Topological Processor 42b.
• the Topological Processor 42b uses this information to create a topological map of the end of the lumber unit 10 which is input to the computer 28.
• the Automated End Tally System is first installed by aligning stationary devices 20 and 21 so that a) they face each other with respect to the direction of their scanning energy beams 38 and 39, b) their stands 25 and 26 run parallel to each other, c) the perimeter outlined by the imaginary line running parallel along each stand and perpendicular between the ends of each stand forms a rectangle, and d) they are separated by enough distance to allow a forklift carrying a perspective unit to pass comfortably between them.
• the strength of scanning energy beams 38 and 39 will dictate the furthest desirable separation of the two devices 20 and 21.
• These devices, 20 and 21, will then also need to be connected to a power source such as a typical AC outlet (this is not shown).
• the Automated End Tally System does not require a remote computer system to perform it's "end tally" counting, but if one is set up and equipped with a bi-directional communications link similar to 36, it may receive counted unit information automatically from device 20.
• the two devices, 20 and 21, are turned on, their respective scanning units 22 and 23 automatically determine the distance between their respective stands 25 and 26. To do this, the devices 20 and 21 will use a technique exactly similar to that used for determining the distance from either stand to the nearest end of unit 10, as will be further described below.
• the Automated End Tally System After the Automated End Tally System has been installed, it may be used as follows. First, the desired unit to be counted is driven by a fork lift into the "space", or operating range, defined by the maximum scanning area of devices 20 and 21. As much as is possible, the unit 10 should be rested within the operating range of the system so that its length is perpendicular to the length of stands 25 and 26.
• the automatic detection of the presence of unit 10 is accomplished by periodically transmitting a pulsed focused beam and simultaneously thereafter receiving any reflections of the pulsed beam. When no unit 10 is present, there is no reflected beam.
• the embodiment 20, determines that unit 10 is at rest, and therefore ready to be counted, by any of several methods including the controlled horizontal movement of the scanning unit 22, in combination with the continued pulsed detection, until the edge of unit 10 is detected and determined to be at rest
• Scanning unit 22 then begins the "end tally" computation by first moving a predetermined distance along the horizontal arm 27 towards the opposite end of the unit 10 from that end first determined to be at rest. Once positioned, the horizontal arm 27 is moved in an upwards direction along the vertical axis of stand 25 while the scanning unit 22 continues to emit pulsed focused beams. Once no reflection is received, the movement of arm 27 is stopped. The horizontal arm 27 is then moved in a downward direction along the vertical axis of stand 25 while the scanning unit 22 emits focused beam. The focused beam 38 impinges upon the end surface of unit 10 thereby producing a reflected beam which contains information in accordance with the surface pattern of unit 10 and which is further received by scanning unit 22.
• Scanning unit 22 is then moved vertically downward continually inputting surface pattern information until the vertical bottom end of unit 10 is detected. As the reflected beam is received, a determination is made as to whether the vertical edge of each course (e.g.10a) of the unit 10 has been transversed. Correlated with the known vertical position of the focused beam 38, this information provides the exact location of the upper and lower edges of each course (e.g. 10a) of unit 10, hence providing the exact location of the middle of each course.
• the scanning unit 22 is then returned the pre-determined distance along the horizontal arm 27 to the original end of the unit 10 which was first detected to be at rest Hence, it will be starting the "end tally" count from either the lower left or right comer of unit 10.
• the scanning unit 22 is then vertically moved to the middle of each course after which it is moved horizontally to the opposite end of unit 10. During this movement the same technique is used to determine the beginning and ending edges of each board along the course. Based upon this information, both the thickness and width of each board in the course has been determined.
• the final determination of board length is calculated from information which is obtained by pulsing focussed beam 38 during the horizontal scanning of each course, which is then used with similar information generated from the opposite end of unit 10 by device 21, which is transmitted by Bi-Directional Communication Link 37 to device 20, via Link 36. As previously mentioned, the two systems, 20 and 21, are separated by a known distance.
• the end tally system utilizes information contained in reflected energy from the surface of unit 10 to determine both when to begin the "end tally" count and the exact dimensions of each board within the unit 10, all of which is topological information.
• device 20 obtained topological information by controllably moving a focused scanning beam and receiving it's reflected energy
• device 40 continuously receives ambient reflected beams from its field of vision while controllably scanning the image created by this energy and hence capturing the image for later analysis. Similar to device 20, such analysis consists of determining the edges of each board within unit 10 by scanning the image and using standard edge detection digital signal processing algorithms. The distance from the scanning unit 42 to the edges of each board can be determined using phase information of two distinct views of the field of vision.
• This distance information when combined with similar information from a device such as 21, positioned at the opposite end of unit 10, can be used to calculate board lengths.
• the device 20 or 40 may then automatically transmit this information over it's Bi-Directional Communications Link 36 to a remote system.
• This remote system may then respond by transmitting any related information such as a tag number to be assigned to the unit which may then be transmitted along with the "end tally", by computer 28, to the Automated Tagging Sub-system 60 (Fig.5) via the Bi-Directional Communications Links 36 and 63. If the remote system is not present, the Automated End Tally System may still transmit the "end tally" to sub-system 60 for printing and tagging.
• the device 20 will also transmit the relative coordinates from the nearest comer of unit 10 to the bi-directional link 63 of the sub-system 60.
• the input / output panel 32 and bar code reader 34 can both be used to enter related unit information into device 20 or 40 for ultimate transmission to the remote system and or printing by sub-system 60.
• Such information might include the mill from which the unit was received, the species and grade of the lumber as well as an item number under which the unit should be classified.
• the Automated Tagging Sub-system 60 works as follows. It must initially be installed in a location near or within the operating range of the devices 20 and 21, at the comer of the operating range closest to the end of stand 25 to which computer 28 is attached. Sub-system 60 should be oriented so that it's longitudinal axis runs parallel to that of stand 25. Furthermore, it's attached moveable arm 70 must be capable of reaching the unit wherever it is most likely to be placed within the operating range. After it is installed and powered on. the Sub-system 60 will automatically send signals to devices 20 and 21 via its Bi-Directional Communications Link 63, which will be used by computer 28 to determine the relative location of Sub-system 60. This system must also be attached to a power source such as an AC outlet (not shown).
• a power source such as an AC outlet (not shown).
• sub- ⁇ ystem 60 After receiving a transmission from the device 20, via it's Bi-Directional Communicati ⁇ as Link 63. sub- ⁇ ystem 60 will commence to print a tag or release a pre-printed tag 11 into grasping and stapling hand 72. After receiving tag 11, the movable arm 70 will extend to move the grasping and stapling hand 72 up to unit 10 using the coordinates of the closest end of unit 10 as determined and transmitted by device 20. The hand 72 will then naple the tag 11 to unit 10 and retract to it's resting position.
• the Automated End Tally System provides a system capable of counting bundled units of lumber without the aid of a human, with increased accuracy and in a minimum of time.
• the system is also capable of quickly inputting information related to the actual unit being counted and automatically transmitting this information to a compamon computer system. Subsequently, the system is capable of receiving back from that companion system any information such as a "tag number" to assign to this unit Based upon all of this information, the system is can automatically generate a printed tag and optionally attache that tag to the unit
• the Automated End Tally System is in general capable of automatically determining the geometric attributes of all members of a common group of dimensional products that may have at least one varying dimension and translating these attributes into a count by dimension format for output Accordingly, the scope of the invention should be determined not by the embodiments illustrated, but by the appended claims and their legal equivalents.

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• General Physics & Mathematics (AREA)
• Physics & Mathematics (AREA)
• Length Measuring Devices With Unspecified Measuring Means (AREA)
• Controlling Sheets Or Webs (AREA)
• Manipulator (AREA)
• Chemical And Physical Treatments For Wood And The Like (AREA)
• General Factory Administration (AREA)
• Warehouses Or Storage Devices (AREA)
• Control Of Eletrric Generators (AREA)
• Radar Systems Or Details Thereof (AREA)
• Processing Of Stones Or Stones Resemblance Materials (AREA)
• Communication Control (AREA)
• Dovetailed Work, And Nailing Machines And Stapling Machines For Wood (AREA)
• Absorbent Articles And Supports Therefor (AREA)
• Exchange Systems With Centralized Control (AREA)
• Control Of Multiple Motors (AREA)
• Paper (AREA)
• Laying Of Electric Cables Or Lines Outside (AREA)
• Selective Calling Equipment (AREA)
• Image Processing (AREA)

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• 1992
  • 1992-12-22 US US07/995,024 patent/US5307294A/en not_active Expired - Lifetime
• 1994
  • 1994-04-08 AT AT94922416T patent/ATE208932T1/de not_active IP Right Cessation
  • 1994-04-08 CA CA002210452A patent/CA2210452C/en not_active Expired - Fee Related
  • 1994-04-08 AU AU73532/94A patent/AU699382B2/en not_active Ceased
  • 1994-04-08 DE DE69429114T patent/DE69429114T2/de not_active Expired - Fee Related
  • 1994-04-08 WO PCT/US1994/003851 patent/WO1995027883A1/en active IP Right Grant
  • 1994-04-08 ES ES94922416T patent/ES2168305T3/es not_active Expired - Lifetime
  • 1994-04-08 DK DK94922416T patent/DK0754290T3/da active
  • 1994-04-08 EP EP94922416A patent/EP0754290B1/en not_active Expired - Lifetime
• 1996
  • 1996-11-07 NO NO964725A patent/NO964725L/no unknown
  • 1996-11-07 FI FI964485A patent/FI964485A/fi active IP Right Revival

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